A research team led by Prof. Yang Yuchao from the School of Electronic and Computer Engineering at Peking University Shenzhen Graduate School has achieved a global breakthrough by developing the first ...

Scientists create smart cells that administer automatic treatments from inside the human body, reacting within seconds to ...

Running rewires your brain cells—igniting memory-saving genes against alzheimer’s Mass General Brigham study reveals how exercise rewires the brain at the cellular level, offering fresh ...

The technique called Single-Cell Transcriptomics Analysis and Multimodal Profiling through Imaging (STAMP) can look at millions of single cells for a fraction of the cost of existing approaches.

Emerging techniques for mapping mRNAs within the subcellular compartments of live cells hold great promise for advancing our understanding of the spatial distribution of transcripts and enabling the ...

Cell–cell interactions are crucial for understanding various physiological and pathological processes, yet conventional population-level methods fail to disclose the heterogeneity at a single-cell ...

A new technical paper titled “An Energy Efficient Memory Cell for Quantum and Neuromorphic Computing at Low Temperatures” was published by researchers at Forschungszentrum Jülich, RWTH Aachen ...

MIT researchers uncover how a single brain circuit stores memories, offering insights into learning, memory formation, and treatments for cognitive disorders.

Nearly 50 years ago, neuroscientists discovered cells within the brain's hippocampus that store memories of specific locations. These cells also play an important role in storing memories of ...

Recent advances in single-cell sequencing technologies, including transcriptomic and multimodal analyses, are changing our understanding of the cellular building blocks of functional neural circuits.